Elektrik Elektronik Mühendisliği Bölümü
Permanent URI for this communityhttps://hdl.handle.net/20.500.12416/410
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Browsing Elektrik Elektronik Mühendisliği Bölümü by Journal "13th International Conference on Electrical and Electronics Engineering (ELECO)"
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Conference Object Citation Count: Demirel, M...et al. "Design and Modeling Interdigitated Capacitor - Spiral Inductor Resonator for Optical Pressure Sensor", 13th International Conference on Electrical and Electronics Engineering (ELECO), pp. 195-200, 2021.Design and Modeling Interdigitated Capacitor - Spiral Inductor Resonator for Optical Pressure Sensor(IEEE, 2021) Demirel, M.; Duyguluer, G.; Öztürk, M.; Salmanogli, A.; Geçim, H. Selçuk; 182579In this study, an optical pressure sensor is designed to sense a force. To achieve that, an interdigitated capacitor connected to a spiral inductor that oscillates at GHz region is proposed to be designed. To sense a force with very low amplitude, some different materials are applied as a dielectric material between the layers of the interdigitated capacitor. Thus, by applying the force, the circuit’s capacitance is changed due to the displacement of the selected dielectric. This leads to change of the circuit's scattering parameters which lets to sense the lowest scale of the pressure possible. For simulation, the circuit is designed in COMSOL, theoretically studied the scattering parameters and the effect of the force on the circuit characteristic and finally, Advanced Design System is used to optimize the parameters for this specific aimConference Object Citation Count: İşpak, T. S...et al. "Design and Modeling of Very Narrow Band-pass Radio Frequency Filter for Optical Pressure Sensor ", 13th International Conference on Electrical and Electronics Engineering (ELECO), pp. 201-205, 2021.Design and Modeling of Very Narrow Band-pass Radio Frequency Filter for Optical Pressure Sensor(2021) İşpak, T. S.; Başaraner, G.; Ceylan, S.; Salmanogli, A.; Geçim, H. Selçuk; 182579In this study, an optical pressure sensor is designed to sense a force on the scale of 100 nN. For this purpose, a very narrow radio frequency band-pass filter is designed and modeled to detect the optical pressure force. The center frequency of the filter is fixed in L-band. Thus, by applying an external force, the circuit’s characteristics such as scattering parameters and the center frequency of the filter is changed. That is the method particularly employed to sense a very low scale optical pressure. In this study, the open-stub technique is used to design the radio frequency filter and results are compared with the lumped elementbased circuit models. Also, the circuit design is simulated in COMSOL Multiphysics, and the scattering parameters are studied. Finally, the circuit is optimized for the specific aim using Advanced Design System software.
